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23 results on '"Fan, Chuanyan"'

1. Pyrochlore NaYbO2: A potential Quantum Spin Liquid Candidate

Author

Fan, Chuanyan, Chang, Tieyan, Fan, Longlong, Teat, Simon J., Li, Feiyu, Feng, Xiaoran, Liu, Chao, Wang, Shi-lei, Ren, Huifen, Hao, Jiazheng, Dong, Zhaohui, He, Lunhua, Wang, Shanpeng, Niu, Chengwang, Chen, Yu-Sheng, Tao, Xutang, and Zhang, Junjie

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Physics - Chemical Physics
Abstract

The search for quantum spin liquids (QSL) and chemical doping in such materials to explore superconductivity have continuously attracted intense interest. Here, we report the discovery of a potential QSL candidate, pyrochlore-lattice beta-NaYbO2. Colorless and transparent NaYbO2 single crystals, layered alpha-NaYbO2 (~250 um on edge) and octahedral beta-NaYbO2 (~50 um on edge), were grown for the first time. Synchrotron X-ray single crystal diffraction unambiguously determined that the newfound beta-NaYbO2 belongs to the three-dimensional pyrochlore structure characterized by the R-3m space group, corroborated by synchrotron X-ray and neutron powder diffraction and pair distribution function. Magnetic measurements revealed no long-range magnetic order or spin glass behavior down to 0.4 K with a low boundary spin frustration factor of 17.5, suggesting a potential QSL ground state. Under high magnetic fields, the potential QSL state was broken and spins order. Our findings reveal that NaYbO2 is a fertile playground for studying novel quantum states., Comment: This document is the unedited author's version of a Submitted Work that was subsequently accepted for publication in Journal of the American Chemical Society, copyright American Chemical Society after peer review. To access the final edited and published work, a link will be provided soon

Published
2025

2. Bulk Crystal Growth and Single-Crystal-to-Single-Crystal Phase Transitions in the Averievite CsClCu5V2O10

Author

Liu, Chao, Ma, Chao, Chang, Tieyan, Wang, Xiaoli, Fan, Chuanyan, Han, Lu, Li, Feiyu, Wang, Shanpeng, Chen, Yu-Sheng, and Zhang, Junjie

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

Quasi-two-dimensional averievites with triangle-kagome-triangle trilayers are of interest due to their rich structural and magnetic transitions and strong spin frustration that are expected to host quantum spin liquid ground state with suitable substitution or doping. Herein, we report growth of bulk single crystals of averievite CsClCu5V2O10 with dimensions of several millimeters on edge in order to (1) address the open question whether the room temperature crystal structure is P-3m1, P-3, P21/c or else, (2) to elucidate the nature of phase transitions, and (3) to study direction-dependent physical properties. Single-crystal-to-single-crystal structural transitions at ~305 K and ~127 K were observed in the averievite CsClCu5V2O10 single crystals. The nature of the transition at ~305 K, which was reported as P-3m1-P21/c transition, was found to be a structural transition from high temperature P-3m1 to low temperature P-3 by combining variable temperature synchrotron X-ray single crystal and high-resolution powder diffraction. In-plane and out-of-plane magnetic susceptibility and heat capacity measurements confirm a first-order transition at 305 K, a structural transition at 127 K and an antiferromagnetic transition at 24 K. These averievites are thus ideal model systems for a deeper understanding of structural transitions and magnetism., Comment: 7 figures

Published
2024
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3. Cascade of phase transitions and large magnetic anisotropy in a triangle-kagome-triangle trilayer antiferromagnet

Author

Liu, Chao, Chang, Tieyan, Wang, Shilei, Zhou, Shun, Wang, Xiaoli, Fan, Chuanyan, Han, Lu, Li, Feiyu, Ren, Huifen, Wang, Shanpeng, Chen, Yu-Sheng, and Zhang, Junjie

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

Spins in strongly frustrated systems are of intense interest due to the emergence of intriguing quantum states including superconductivity and quantum spin liquid. Herein we report the discovery of cascade of phase transitions and large magnetic anisotropy in the averievite CsClCu5P2O10 single crystals. Under zero field, CsClCu5P2O10 undergoes a first-order structural transition at around 225 K from high temperature centrosymmetric P-3m1 to low temperature noncentrosymmetric P321, followed by an AFM transition at 13.6 K, another structural transition centering at ~3 K, and another AFM transition at ~2.18 K. Based upon magnetic susceptibility and magnetization data with magnetic fields perpendicular to the ab plane, a phase diagram, consisting of a paramagnetic state, two AFM states and four field-induced states including two magnetization plateaus, has been constructed. Our findings demonstrate that the quasi-2D CsClCu5P2O10 exhibits rich structural and metamagnetic transitions and the averievite family is a fertile platform for exploring novel quantum states., Comment: 15 pages, 5 figures

Published
2024
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4. Low-temperature aqueous solution growth of the acousto-optic TeO2 single crystals

Author

Han, Lu, Liu, Chao, Wang, Xiaoli, Li, Feiyu, Fan, Chuanyan, and Zhang, Junjie

Subjects
Condensed Matter - Materials Science
Abstract

$\alpha$-TeO2 is widely used in acousto-optic devices due to its excellent physical properties. Conventionally, $\alpha$-TeO2 single crystals were grown using melt methods. Here, we report for the first time the growth of $\alpha$-TeO2 single crystals using the aqueous solution method below 100 {\deg}C. Solubility curve of $\alpha$-TeO2 was measured, and then single crystals with dimensions of 3.5x3.5x2.5 mm3 were successfully grown using seed crystals that were synthesized from spontaneous nucleation. The as-grown single crystals belong to the P41212 space group, evidenced by single crystal X-ray diffraction and Rietveld refinement on powder diffraction. Rocking curve measurements show that the as-grown crystals exhibit high crystallinity with a full-width at half maxima (FWHM) of 57.2''. Ultraviolet-Visible absorption spectroscopy indicates the absorption edge is 350 nm and the band gap is estimated to be 3.58 eV. The density and Vickers hardness of as-grown single crystals are measured to be 6.042 g/cm3 and 404 kg/mm2, repectively. Our findings provide an easy-to-access and energy-saving method for growing single crystals of inorganic compounds., Comment: 14 pages, 8 figures

Published
2024
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17. High pO2 Flux Growth and Characterization of NdNiO3 Crystals

Author

Wang, Xiaoli, primary, Wang, Shilei, additional, Liu, Chao, additional, Fan, Chuanyan, additional, Han, Lu, additional, Li, Feiyu, additional, Chang, Tieyan, additional, Chen, Yu-Sheng, additional, Wang, Shanpeng, additional, Tao, Xutang, additional, and Zhang, Junjie, additional

Published
2023
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18. Flux Growth of Trilayer La4Ni3O10Single Crystals at Ambient Pressure

Author

Li, Feiyu, Wang, Shilei, Ma, Chao, Wang, Xiaoli, Liu, Chao, Fan, Chuanyan, Han, Lu, Wang, Shanpeng, Tao, Xutang, and Zhang, Junjie

Abstract

Rare earth nickelates are of significant interest due to their emerging physical properties such as high-temperature superconductivity, multiferroicity, metal–insulator transition, charge and spin order, etc. However, single-crystal growth of these nickelates remains a central challenge. Here, single crystals of the trilayer nickelate La4Ni3O10with dimensions up to 182 μm were successfully grown for the first time using K2CO3as a flux at ambient pressure. The as-grown crystals crystallize in the P21/aspace group at room temperature and exhibit a first-order metal-to-metal transition, as evidenced by resistivity, magnetic susceptibility, and DSC. The successful growth of La4Ni3O10single crystals at ambient pressure provides an alternative and easy-to-access method without the need of high pressure for the growth of other interesting rare earth nickelate single crystals, including the newly discovered high-temperature superconductor La3Ni2O7.

Published
2024
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19. High pO 2 Flux Growth and Characterization of NdNiO 3 Crystals.

Author

Wang, Xiaoli, Wang, Shilei, Liu, Chao, Fan, Chuanyan, Han, Lu, Li, Feiyu, Chang, Tieyan, Chen, Yu-Sheng, Wang, Shanpeng, Tao, Xutang, and Zhang, Junjie

Subjects
MAGNETIC measurements, SINGLE crystals, X-ray powder diffraction, CRYSTALS, CRYSTAL growth
Abstract

Single crystals of the perovskite nickelate NdNiO3 with dimensions of up to 50 μm on edge have been successfully grown using the flux method at a temperature of 400 °C and oxygen pressure of 200 bar. The crystals were investigated by a combination of techniques, including high-resolution synchrotron X-ray single-crystal and powder diffraction and physical property measurements such as magnetic susceptibility and resistivity. Resistivity measurements revealed a metal-insulator transition (MIT) at TMIT~180 K with apparent thermal hysteresis; however, no superlattice peaks or peak splitting below TMIT, which corresponds to a structural transition from Pbnm to P21/n, was observed. The successful growth of NdNiO3 crystals at relatively low temperatures and oxygen pressure provides an alternative approach for preparing single crystals of interesting perovskites such as RNiO3 (R = Sm-Lu) and parent phases of superconducting square planar nickelates. [ABSTRACT FROM AUTHOR]

Published
2023
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22. Controllable synthesis of small size CsxWO3 nanorods as transparent heat insulation film additives.

Author

Liu, Jingxiao, Chen, Bin, Fan, Chuanyan, Shi, Fei, Ran, Shuai, Yang, Jingyuan, Song, Xin, and Liu, Su-Hua

Subjects
THERMAL insulation, NANORODS, NANOCOMPOSITE materials
Abstract

To achieve simultaneously higher transparency and heat-shielding performance of CsxWO3 for energy-saving glass applications, we developed small size CsxWO3 nanorods with lengths of 10–60 nm by controllable solvothermal reaction and a subsequent heat-treatment with citric acid thermolysis under a N2 atmosphere. It has been proved that crystal growth could be controlled by using solid state gel-like tungstic acid as the W source and controlling the water content in the precursor solution. In the meantime, the deposited carbon film on the particle surface due to thermolysis of citric acid during N2 heat-treatment could also inhibit the crystal growth. It has been confirmed that the as-prepared CsxWO3 films on a glass substrate from dispersion of CsxWO3 particles after N2 heat-treatment with citric acid thermolysis exhibited improved transparency and near-infrared (NIR) shielding ability. Particularly, the CsxWO3 particles synthesized using pure ethanol as the solvent exhibited the best visible light transparency and NIR shielding performance. The mechanism of controlling the small size and improving the visible light transparency and NIR shielding ability of CsxWO3 particles was discussed, which is of significance for realizing broad applications in the field of energy-saving glasses, and the synthetic strategy is also suitable for synthesizing other small size functional nanoparticles. [ABSTRACT FROM AUTHOR]

Published
2018
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23. Pyrochlore NaYbO 2 : A Potential Quantum Spin Liquid Candidate.

Author

Fan C, Chang T, Fan L, Teat SJ, Li F, Feng X, Liu C, Wang S, Ren H, Hao J, Dong Z, He L, Wang S, Niu C, Chen YS, Tao X, and Zhang J

Abstract

The search for quantum spin liquids (QSL) and chemical doping in such materials to explore superconductivity have continuously attracted intense interest. Here, we report the discovery of a potential QSL candidate, pyrochlore-lattice β-NaYbO 2 . Colorless and transparent NaYbO 2 single crystals, layered α-NaYbO 2 (∼250 μm on edge) and octahedral β-NaYbO 2 (∼50 μm on edge), were grown for the first time. Synchrotron X-ray single-crystal diffraction unambiguously determined that the newfound β-NaYbO 2 belongs to the three-dimensional pyrochlore structure characterized by the R 3̅ m space group, corroborated by synchrotron X-ray and neutron powder diffraction and pair distribution function. Magnetic measurements revealed no long-range magnetic order or spin glass behavior down to 0.4 K with a low boundary spin frustration factor of 17.5, suggesting a potential QSL ground state. Under high magnetic fields, the potential QSL state was broken and spins order. Our findings reveal that NaYbO 2 is a fertile playground for studying novel quantum states.

Published
2025
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